Litcius/Paper detail

The sponge effect and carbon emission mitigation potentials of the global cement cycle

Zhi Cao, Rupert J. Myers, Rick Lupton, Huabo Duan, Romain Sacchi, Nan Zhou, T. Reed Miller, Jonathan M. Cullen, Quansheng Ge, Gang Liu

2020Nature Communications296 citationsDOIOpen Access PDF

Abstract

Abstract Cement plays a dual role in the global carbon cycle like a sponge: its massive production contributes significantly to present-day global anthropogenic CO 2 emissions, yet its hydrated products gradually reabsorb substantial amounts of atmospheric CO 2 (carbonation) in the future. The role of this sponge effect along the cement cycle (including production, use, and demolition) in carbon emissions mitigation, however, remains hitherto unexplored. Here, we quantify the effects of demand- and supply-side mitigation measures considering this material-energy-emissions-uptake nexus, finding that climate goals would be imperiled if the growth of cement stocks continues. Future reabsorption of CO 2 will be significant (~30% of cumulative CO 2 emissions from 2015 to 2100), but climate goal compliant net CO 2 emissions reduction along the global cement cycle will require both radical technology advancements (e.g., carbon capture and storage) and widespread deployment of material efficiency measures, which go beyond those envisaged in current technology roadmaps.

Topics & Concepts

SpongeCementCarbon cycleCarbon fibersEnvironmental scienceMaterials scienceEnvironmental chemistryChemistryComposite materialGeologyBiologyEcologyPaleontologyEcosystemComposite numberCO2 Sequestration and Geologic InteractionsEnvironmental Impact and Sustainability